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Artificial breeding and clustering method for vespa velutina auraria smith

A technology of wasps and hornets, which is applied in the field of artificial breeding of insects, can solve the problems of small nesting efficiency, long nesting time, and unfavorable impact on the population of hornets, so as to reduce the impact, speed up the nesting speed, and increase the resistance to external adverse effects The effect of the strength of the factor

Inactive Publication Date: 2017-08-18
CHUXIONG NORMAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The existing wasp breeding is to lay eggs in separate nests and build colonies after the queen bee overwinters. After the number of worker bees reaches 15-20, it becomes a standard bee colony. After the number of worker bees meets the requirements, the bee colony needs to be placed in the wild natural environment Let it develop freely, and manually harvest bee pupae and bee venom at an appropriate time. The advantage of cultivating Vespa dentata in this way is that it can save artificially fed bait, beverages, and labor costs, and is also beneficial to biological pest control; but at the same time It also brings some problems: in the process of the free development of the wasp in the wild, the population of the wasp is small, which is not conducive to resisting the impact of birds and beasts on the population of the wasp, and the population of the wasp is so small that the nesting efficiency is not high. Nesting takes a long time, which affects the production of bee pupae and bee venom

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] The honeycombs of two different concave wasp colonies are placed on both sides of the same clapboard, the clapboard is a mesh structure, and the value of the mesh diameter of the clapboard is smaller than the value of the outer diameter of the wasp. The honeycomb of the wasp colony is sprayed with low-concentration salt water, and the low-concentration salt water is a sodium chloride solution with a concentration of 0.1-0.5%. The number of times of spraying is once, and the outer edges of the honeycombs of different wasp colonies are over When the edge lines of the separators are in contact, the separators are removed to complete the grouping, and the value of the outer diameter of the separators is at least twice the value of the outer diameter of the concave wasp honeycombs.

Embodiment 2

[0020] The honeycombs of two different concave wasp colonies are placed on both sides of the same clapboard, the clapboard is a mesh structure, and the value of the mesh diameter of the clapboard is smaller than the value of the outer diameter of the wasp. The honeycomb of the wasp colony is sprayed with low-concentration salt water, the low-concentration salt water is a 0.1% concentration of sodium chloride solution, and the number of times of spraying is once, until the outer edge of the honeycomb of the wasp colony with different indentations crosses the partition When the edge lines of the vesicles are in contact, the separator is removed to complete the grouping, and the value of the outer diameter of the separator is at least twice the value of the outer diameter of the concave wasp honeycomb.

Embodiment 3

[0022] The honeycombs of two different concave wasp colonies are placed on both sides of the same clapboard, the clapboard is a mesh structure, and the value of the mesh diameter of the clapboard is smaller than the value of the outer diameter of the wasp. The honeycomb of the wasp colony is sprayed with low-concentration salt water, and the low-concentration salt water is a sodium chloride solution with a concentration of 0.5%, and the number of times of spraying is once, until the outer edges of the honeycombs of the wasp colonies with different indentations cross the clapboard When the edge lines of the vesicles are in contact, the separator is removed to complete the grouping, and the value of the outer diameter of the separator is at least twice the value of the outer diameter of the concave wasp honeycomb.

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PUM

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Abstract

The invention discloses an artificial breeding and clustering method for vespa velutina auraria smith. Two different honeycombs for vespa velutina auraria smith swarms are placed on two sides of a partition board. Swarms for two different vespa velutina auraria smith on two sides of the partition board are sprayed with low concentration saline water. When edges of the swarms for two different vespa velutina auraria smith bypass the edge line of the partition board and get in contact, the partition board is detached for clustering. The aim of the artificial breeding and clustering method is to make weak swarms for vespa velutina auraria smith get stronger. The interference on external environment upon vespa velutina auraria smith is reduced.

Description

technical field [0001] The invention belongs to the technical field of artificial breeding of insects, and particularly relates to a method for artificial breeding and grouping of vespas. Background technique [0002] The existing vespa breeding is to lay eggs in separate nests after the queen bees overwinter. The number of worker bees reaches 15-20 to become a standard bee colony. After the number of worker bees meets the requirements, the colony needs to be placed in the wild natural environment. Let it develop freely, and artificially harvest bee pupae and bee venom at an appropriate time. The advantage of breeding wasps in this way is that it can save artificially fed bait, beverages, labor costs, and is also conducive to biological control of pests; but at the same time It also brings some problems: in the process of free development of the wasp in the wild, the population of the wasp is small, which is not conducive to resisting the impact of birds and beasts on the wa...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K67/033
CPCA01K67/033
Inventor 王振吉崔瀚
Owner CHUXIONG NORMAL UNIV
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